KR100514917B1 - Package for mounting a solid state image sensor - Google Patents

Abstract

The solid-state image sensor mounting package is a top-shaped resin package having a light-transmitting opening for mounting the solid-state image sensor face-down on the bottom. The package includes a lead portion and a resin made of a conductive metal plate for electrical conduction. The lead portion (i) one end portion (end portion of the inner lead portion) is exposed in the vicinity of the light-transmitting opening portion of the inner bottom surface of the top-shaped resin package, and (ii) the other end portion (outer). The end of the lead portion) is exposed on the upper sidewall surface of the upper-shaped resin package, (iii) is bent between the both ends, and (iii) is embedded in the resin except for the exposed portions at both ends of the lead portion, Three-dimensional circuit is formed. Thereby, a package for mounting a solid-state image pickup device that can be manufactured in a small, thin and simple process at a low cost.

Description

PACKAGE FOR MOUNTING A SOLID STATE IMAGE SENSOR}

The present invention is a resin package in which a three-dimensional circuit is formed to face-mount a solid-state image sensor such as a CCD (telephone coupling element) or a CMOS (complementary metal oxide semiconductor) face down. It is about.

Conventionally, the hollow package made of resin has been used for the package which mounts a solid-state image sensor as shown in FIG. The solid-state image sensor is mounted on the hollow portion of the hollow package, and then the inner lead portion and the solid-state image sensor are bonded by thin wires such as gold wires to conduct electricity, and then a transparent cover is placed on the upper surface of the package resin portion. It adhere | attached and sealed the hollow part airtight.

On the other hand, in recent years, the demand for miniaturization and thinning of the solid-state imaging device storage package is increasing, and various methods of mounting the solid-state imaging device on the bare chip are beginning to be used. Among them, there is an upper mold body in which the MID (Molded Interconnect Device) method, which is a three-dimensional circuit forming technique as shown in FIG. 2, is applied. In this method, after molding a molded article having an opening at the bottom of the image by injection molding, a circuit is formed on the surface of the resin portion inside the upper molded body, and then the electrode surface of the solid-state imaging element is formed in the circuit portion formed near the opening. This is a way to connect to each other (ie, face down). Japanese Laid-Open Patent Publication No. 2002-280535 discloses a method in which an opening is provided at the bottom of the image and the lens barrel is integrated. The integrated part is called a lens mount pedestal and proposes a method of forming a wiring pattern by plating directly on the bottom of the lens mount pedestal.

Here, there are various methods of forming a circuit on the surface of the resin by the MID method. For example, in the case of the two-shot method, a circuit-formable resin is first injection molded, and then the molded product is placed in another mold. After installation, it is injection molded and overmolded. Then, it is the method of forming a circuit by plating on the resin surface which can be formed circuit. In addition, in the one-shot method which is different from the above, first, the surface of the resin is subjected to the deposition of the copper thin film by sputtering or the plating of the copper thin film by electroless plating, followed by resist coating, exposure and development, copper etching, and resist stripping. Thereafter, nickel and gold plating are performed on the circuit forming part.

In addition to the method of forming a circuit by MID in the upper mold body, a method of forming a circuit pattern of an imaging module with a lens by a lead frame, as described in Japanese Patent Laid-Open No. 2002-204400, is also proposed. have.

The conventional hollow resin package is a structure in which a solid-state image sensor is mounted in a hollow package and is hermetically sealed with a transparent cover, so that the whole becomes large and thick. Therefore, this form does not meet the recent demand of miniaturization and thickness reduction. In addition, since the image pickup device and the inner lead portion are bonded by gold wires, light diffused by the bonding wire portion may enter the image pickup device and cause disturbance of the image.

On the other hand, the method of face-down mounting a solid-state imaging device on a molded body having a three-dimensional circuit formed on the resin surface by the MID method is bare chip mounting, so that a body such as a hollow package is unnecessary, and the whole device is made thin and small. Has an advantage. In addition, since there is no wire bonding by the gold wire, no diffuse reflection at the wire portion occurs, so that the image is not disturbed.

However, the method of forming a three-dimensional circuit in a resin molded body by the MID method requires two molding dies in the two-shot method, and in order to increase the adhesive force of the resin interface after the first shot-formable resin molding. Harmonization of the surface is necessary. On the other hand, the one-shot method is good with only one molding die, but the circuit is formed through several steps such as thin film plating, resist coating, exposure and development, copper etching, and resist stripping for circuit formation. Either method has the drawback of high manufacturing costs due to the complexity of the process.

Further, Japanese Patent Laid-Open No. 2002-204400 proposes a method of forming an image pickup device module circuit with a lens by a lead frame. However, in this method, since the lead is not bent in advance during molding, after insert molding, It is necessary to complexly bend the outer portion along the outer circumferential portion of the upper mold body.

The present invention relates to an upper mold resin package having a light-transmitting opening on the bottom thereof for mounting the solid-state imaging device face-down, which solves the above problems in making a compact and thin solid-state imaging device. . The top-shaped resin package of this invention consists of a lead part which consists of a conductive metal plate which realizes electrical conduction, and a resin part, and the lead part is the one end part (inner lead). The end of the part is exposed in the vicinity of the light-transmitting opening of the inner bottom of the upper resin package, (ii) the other end (the end of the outer part) is exposed on the upper sidewall surface of the upper resin package. (Iii) A package for mounting a solid-state imaging device having a three-dimensional circuit having such a configuration, which is bent between the both ends and (iii) is embedded in a resin other than the exposed portions of the both ends of the lead portion. Therefore, the present invention is (1) an upper mold resin package for mounting a solid-state imaging device in which a metal lead frame is embedded with resin, wherein the resin portion molded by the resin is A bottom face and a side wall standing up from the bottom face; On the bottom surface, a light-transmitting opening for mounting the solid state imaging device face down; The metal lead frame includes an inner lead portion in contact with the protruding electrode of a solid state image pickup device to be mounted, an outer lead portion for solder connection with a terminal of an external circuit board on which the package is mounted, the inner lead portion and the outer portion; A bent portion connecting the lead portion; At least a part of the upper surface of the inner lead portion is exposed in the vicinity of the light-transmitting opening portion of the bottom of the resin package; At least a part of the upper surface of the outer portion is exposed at the upper surface of the sidewall of the resin package; The lead frame other than the exposed portion of the inner lead portion and the outer lead portion is embedded in the resin, and is a top-shaped resin package for mounting a solid-state image sensor, and (2) in (1), The molded article made of the resin has a rectangular shape, has a side wall only on one pair of two opposite sides, and does not have a side wall on the other opposite two sides that are perpendicular to each other, and at least a part of the upper surface of the outer portion is exposed from the side wall. A top-shaped resin package for mounting a solid-state image sensor, characterized in that (3) the bottom face of the light-transmitting opening portion for mounting the solid-state image sensor face-down in (1) or (2). In the outer periphery, a holder for mounting the lens barrel or the lens barrel is a hole for mounting the lens barrel or the lens barrel. Of the mold resin package for mounting the solid-state imaging device, characterized in that the optical axis is installed, the optical axis of the solid-state image sensor match.

In the conductive metal plate used in the present invention, the lead frame which is generally used for semiconductor encapsulation is three-dimensionally bent, whereby a circuit can be formed in an upper resin package. Since the present technique uses a lead frame to form a three-dimensional circuit, it is possible to make it inexpensive without having to go through a complicated process such as the MID technique. That is, a lead frame having a three-dimensional structure in which the lead portion is bent is set in a molding die, and then resin molded, and after removing the thin resin remaining on the lead surface, the lead is formed on the end face of the resin molded body. The resin package for mounting the solid-state image pickup device of the present invention can be easily obtained by cutting and separating from the lead frame.

Here, the solid-state imaging device mounted in the package made of an upper mold type resin is a light receiving semiconductor device such as a CCD and a CMOS.

In addition, resin used for shaping | molding of a phase-shaped resin package is thermosetting resins, such as an epoxy resin, a phenol resin, unsaturated polyester resin, and a silicone resin, or a liquid crystal polymer, a polyphenylene oxide, a polyphenylene sulfide (PPS) resin, It is preferable to shape | mold with heat resistant thermoplastic resins, such as a polysulfone, a polyamide imide, and a polyaryl sulfone resin. Of these, epoxy resins, polyimide resins, and PPS are particularly preferable. As the polyimide resin, polyimide resins such as polyaminobismaleimide, polypyromerimide, and polyether can be used.

It is preferable to add an inorganic filler to these heat resistant resins. Examples of the inorganic fillers include heat resistant inorganic fillers such as silica powder, alumina powder, silicon nitride powder, boron nitride powder, titanium oxide powder, silicon carbide powder, glass fiber and alumina fiber. Among these, silica powder, alumina powder, silicon nitride powder and boron nitride powder are more preferable because shrinkage after molding becomes isotropic shrinkage. The particle size of the inorganic filler is preferably 0.1 to 120 µm, more preferably 0.5 to 60 µm in view of fluidity during molding. The inorganic filler is preferably 40 to 3200 parts by weight, more preferably 100 to 1150 parts by weight based on 100 parts by weight of the heat resistant resin. In addition to the inorganic filler, a curing agent, a curing accelerator, and a coupling agent may be included.

The lead is provided in the form of a lead frame and is preferably selected from the group consisting of copper, iron, aluminum and alloys thereof, in particular from 42 alloys or copper alloys. Although this lead frame does not need to be surface-treated further, it can surface-process in whole or part as needed. For example, plating of gold, silver, nickel, solder, or the like may be performed.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described based on drawing.

First, a lead frame 9 with leads in four directions as shown in FIG. 3 is prepared. This lead frame can be obtained by processing a thin plate-like metal plate made of 42 alloy or copper alloy into a predetermined shape. As shown in FIG. 3, the lead frame 9 is bent in a stepped state in the bent portion 11 in the middle of the inner lead portion 2 and the outer lead portion 10. The lead of this shape may use a lead frame having leads in two directions as shown in Figs. 4 and 5. Next, using the lead frame 9 shown in Fig. 3, a package made of upper mold resin as shown in Fig. 6 is used. Is formed. That is, the upper mold | type resin package of FIG. 6 has the side wall 12 and the bottom face, and the light transmission opening 8 which penetrates it is formed in the bottom face. An opening inner bottom face 14 surrounded by the side wall 12 is formed around the opening, and at least a part of the upper surface of the inner lead portion 2 is exposed to the opening bottom face 14, and the outer lid part 10 is formed. At least a portion of the upper surface of is exposed to the upper surface 13 of the side wall, and the end of the outer portion is exposed to the upper side portion of the side wall.

In the case of the lid in two directions shown in FIG. 4, the upper mold resin package shown in FIG. 7 is formed. In addition, using the lid of FIG. 5, when the molding die which does not have two sidewalls facing up from the inner bottom face of an upper die shape is used, the resin package like FIG. 8 is formed. In the case of the package shape of FIG. 8, compared with the package shape of FIG. 7, it becomes possible to reduce the external dimension of a package by the one which does not have two opposite side walls. In addition, when the shaping | molding die which can form a cylindrical holder on the outer side bottom opening part is used for shaping | molding of an upper mold | type resin package, the resin package which has a cylindrical holder on the outer side bottom opening part as shown in FIG. Can be. In addition, when a molding die having a lens barrel for lens mounting is used on the outer bottom face of the opening, a resin package as shown in Fig. 10 can also be formed.

Molding of these resin packages is obtained by attaching the lead frame 9 to a molding die and insert molding epoxy resin or the like into the cavity of the mold by transfer molding or injection molding. The conditions of transfer molding vary depending on the resin used, but in the case of epoxy resin, the molding pressure is usually 5 to 30 MPa, preferably 10 to 17 MPa, and the temperature is 130 to 200 ° C, preferably 150 to 180 ° C. The time is 10 to 120 seconds, preferably pressurized heating is carried out under the conditions of 15 to 60 seconds. In the case of injection molding, in general, the injection pressure is 5 to 100 MPa, preferably 8 to 60 MPa, the molding temperature is 130 to 200 ° C, preferably 150 to 180 ° C, and the time is 10 to 120 seconds, preferably 15 It is shape | molded on the conditions of -60 second. Thereafter, in each molding method, post-curing can be added as necessary.

By the above molding, it is possible to form the inner lead portion in the state where the upper surface is exposed on the inner bottom surface near the opening, and the outer surface portion is exposed in the state where the upper surface is exposed on the upper surface of the side wall of the package made of the upper mold. In addition, the thin resin formed on the surfaces of the inner lead portion and the outer lead portion during molding is removed by applying high pressure water or the like.

Next, a resin package for mounting a solid-state image sensor can be obtained by cutting the outer portion drawn out from the upper side end portion of the side wall of the upper side resin package and cutting it from the lead body. Further, the cut position of the outer portion may be the outermost circumference of the resin package of the upper side surface of the sidewall of the upper mold resin package, or may be a portion directed outward from the outermost circumference.

The procedure for attaching the solid-state imaging device to the obtained package of solid-state imaging device mounting solid resin will be described below. First, a solid-state imaging device having projection electrodes around the imaging section is face-down mounted with an electrically conductive adhesive on the inner lead exposed portion of the inner bottom surface of the opening of the upper package resin package as shown in FIGS. 6, 7 and 8. Thereafter, the gap between the solid-state image sensor and the inner lead portion is sealed with a liquid sealing resin. Next, by attaching and fixing the transparent lid to the outer bottom face of the opening with a sealant, a device equipped with the compact and thin solid-state image sensor shown in FIG. 11 can be obtained.

Also in the case of the resin package in which the lens barrel mounting holder is provided on the outer bottom of the periphery of the resin package opening shown in Fig. 9, after mounting the solid-state image sensor face-down as described above, a transparent lid is attached to the outer bottom of the opening. By fixing and then inserting the lens barrel into the holder portion, the lens-integrated solid-state image sensor shown in Fig. 12 can be obtained. As shown in FIG. 12, the lens barrel may be inside the holder or outside. In the case of this system, it is also possible to hermetically seal by attaching the lens barrel as it is without the transparent lid on the outer bottom surface of the opening.

Moreover, also in the case of the resin package which provided the lens mounting barrel in the outer bottom surface of the periphery of the resin package opening shown in FIG. 10, after a solid-state image sensor is attached to the inner bottom surface of an opening part as mentioned above, it is transparent to an outer bottom surface of an opening part. By attaching and fixing the lid and fixing the lens to the barrel thereafter, the lens-integrated solid-state imaging device shown in Fig. 13 can be obtained. In addition, the present system may also have no transparent cover on the bottom surface of the opening as in the above-described manner. In the case of a resin package having a holder or a barrel on the outer bottom face of these openings, there is an advantage in that alignment between the center of the solid-state imaging element and the lens center is easy. The module of the imaging device apparatus can be made by soldering the outer portion of the upper-shaped resin package thus obtained and the printed circuit board or flexible wiring board serving as the connection circuit board to the outside.

According to the present invention, a resin package for mounting a face-down mounting solid-state image sensor can be provided at a low price.

1 is a cross-sectional view showing a conventional hollow package.

2 is a cross-sectional view of a device in which a solid-state imaging device is mounted on a molded product produced by the MID method.

3 is a plan view and a cross-sectional view of a lead frame having leads in four directions used in the present invention.

4 is a plan view of a lead frame with leads in two directions used in the present invention.

Fig. 5 is a plan view of another lead frame having leads in two directions used in the present invention.

FIG. 6 is a plan view and a sectional view of an upper mold resin package according to the present invention using the lead frame of FIG. 3. FIG.

7 is a plan view and a cross-sectional view of an upper mold resin package according to the present invention using the lead frame of FIG. 4.

8 is a plan view and a cross-sectional view of a resin package having no sidewalls on opposite sides in accordance with the present invention using the leadframe of FIG. 5.

It is sectional drawing of the resin package which provided the cylindrical holder in the vicinity of the opening part which concerns on this invention.

10 is a cross-sectional view of a resin package in which a barrel is formed near the opening portion according to the present invention.

11 is a cross-sectional view showing a device in which a solid-state imaging device is mounted on an upper mold resin package according to the present invention.

12 is a cross-sectional view showing a solid-state imaging device in which a lens and a barrel are mounted on a resin package in which a cylindrical holder is formed in the vicinity of an opening according to the present invention.

Fig. 13 is a cross-sectional view showing a solid-state imaging device in which a lens is attached to a resin package in which a barrel is formed in the vicinity of an opening according to the present invention.

* Description of the major symbols in the drawings

1 is solid-state image sensor, 2 is inner lead part, 3 is resin part, 4 is gold wire, 5 is hollow part, 6 is transparent cover, 7 is circuit part, 8 is opening part, 9 is lead frame, 10 is outer part part, 11 is a lead bend, 12 is a side wall, 13 is an upper surface of the side wall, 14 is an inner bottom of the opening, 15 is an outer bottom of the opening, 16 is a cylindrical holder, 17 is a barrel, 18 is a projection electrode, 19 is a liquid sealing resin, 20 Is a lens barrel and 21 is a fixing ring.

Claims (3)

As a top-shaped resin package for mounting a solid-state image sensor in which a metal lead frame is embedded with resin, The resin part molded by the said resin consists of a bottom face and a side wall standing up from the said bottom face; On the bottom surface, a light-transmitting opening for mounting the solid state imaging device face down; The metal lead frame includes an inner lead portion in contact with the protruding electrode of a solid state image pickup device to be mounted, an outer lead portion for solder connection with a terminal of an external circuit board on which the package is mounted, the inner lead portion and the outer portion; A bent portion connecting the lead portion; At least a part of the upper surface of the inner lead portion is exposed in the vicinity of the light-transmitting opening portion of the bottom of the resin package; At least a part of the upper surface of the outer portion is exposed at the upper surface of the sidewall of the resin package; Also A lead frame package for mounting a solid-state image pickup device, wherein a lead frame other than the exposed portion of the inner lead portion and the outer lead portion is embedded in the resin. 2. The molded body according to claim 1, wherein the molded article made of resin has a rectangular shape, has a side wall only on one pair of two sides of two opposite sides, and does not have a side wall on the other opposite two orthogonal sides, and has at least an upper surface of the outer portion. A part is exposed from the said side wall, The upper mold resin package for mounting a solid-state image sensor. The lens barrel or the lens barrel according to claim 1 or 2, wherein a lens barrel or a lens barrel is provided around the bottom outside of the bottom surface of the light-transmitting opening for mounting the solid state image pickup device face down. An upper box resin package for mounting a solid-state image pickup device, characterized in that the optical axis of the holder and the optical axis of the solid-state image pickup device for mounting.